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ITU-T Study Group 15 Optical transport networks and access network infrastructures

ITU-T Study Group 15 Optical transport networks and access network infrastructures. Yoichi Maeda. Contents. Terms of reference Highlights of achievements / Projects / FGs Future work Conclusions Supplemental slides. Terms of Reference.

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ITU-T Study Group 15 Optical transport networks and access network infrastructures

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  1. ITU-T Study Group 15Optical transport networks and access network infrastructures Yoichi Maeda

  2. Contents • Terms of reference • Highlights of achievements / Projects / FGs • Future work • Conclusions • Supplemental slides

  3. Terms of Reference • Optical transport networks and access network infrastructures • Optical and other infrastructures, systems, equipment, fibres, control plane technologies • Customer premises, access, metropolitan and long haul • Lead SG for: • access network transport • optical technology • optical transport networks

  4. Highlights of achievements (WP1) • G.hn with MIMO > 1 Gb/s home networking • G.9970/1 for Smart Grid and home networking management • G.9955/6 standards (G.hnem) for narrowband OFDM Power Line Communications (PLC) • Approved G.9959 (Wireless Narrowband) regarding wireless narrowband transceivers for home networking in collaboration with ITU-R • Enhancing DSL performance using vectoring • New work on G.fast for up to 1 Gb/s for very short copper access lines • 10Gb-capable PON systems; XG-PON series

  5. Highlights of achievements (WP2) • Test methods of optical fibres and cables • Optical terrestrial systems at 40&100 Gb/s • Optical components and subsystems such as optical amplifier devices, optical splitters • Multi-channel DWDM applications for repeaterless optical submarine cable systems • New work on “Optical fibre cable constructions for a new application” considering riser, high-density micro-cable and indoor/outdoor cables • Update L.dmosp “Disaster management for outside plant facilities” of optical cables networks

  6. Highlights of achievements (WP3) • OTN hierarchy (G.709), and OTN equipment specs (G.798) considering the mappings for IEEE 40GBASE-R and 100GBASE-R client signals • OTN linear and ring protections • OTN error performance and OTN jitter and wander • New Recommendation for hitless resizing of ODUflex (GFP) signals • Progress on Ethernet over Transport Recommendations including the terminology, the equipment specifications , the OAM and the test equipment specification for Synchronous Ethernet

  7. New ITU-T Handbooks • Wireline Broadband Access Networks and Home Networking • WP1/15, 2010 • Fibres, cables and systems • WP2/15, 2009 • Optical transport systems – from TDM to packet • WP3/15, 2011

  8. Future Work (I) • Faster broadband access solutions over fibre, copper and fibre plus copper • In-premises networking transceivers for twisted pair, coax and powerline including support for Smart Grid energy management • Improved optical systems and associated installation and maintenance

  9. Future Work (II) • Easy and environmentally friendly installation technology for outside plant • Fibres: robustness and low bending loss • Faster, more efficient core transport solutions, including protection, timing, OAM and element management – beyond 100Gb/s

  10. Conclusion • Leading development of optical transport network standards in ITU. • The largeststudy group in ITU-T • Highlights include home networking, smart grid, high speed access, optical transport network infrastructure and transport technologies. • Handbooks - bridge the standards gap • Extend and facilitate international cooperation

  11. Supplemental Slides • Management team • Structure • Statistics • Others (if any)…

  12. Management Team

  13. Study Group Structure • WP 1: Optical and metallic access network • Lead SG on Access Network Transport standards • Access network standards. (PON and xDSL) • Home networking • WP 2: Optical transport network (OTN) technology • Lead SG on Optical Technology standards • OTN Layer 1 related standards. • WP 3: Optical transport network (OTN) structure • Lead SG on Optical Transport Networks standards • OTN structure related standards such as network architecture, network protection/ restoration, Interworking, synchronization, signal & frame structure, interfaces, network management; SDH,ASON,Ethernet …

  14. Statistics (I) • 2390 contributions received • 3104 TDs generated • 447 liaisons sent • 7 SG meetings held • 4 separate WP1/15 meetings held • Around 350 participants per SG meeting

  15. Statistics (II) • 50New Recommendations • 50Revised/Amended Recommendations • 13 Supplements • 12 Implementers’ Guides • 19 Questions assigned by WTSA-08 • 3 New or revised Questions • One deleted Question • One Question moved to SG5 • 18 Questions proposed for next period

  16. SG15 is the largest in ITU-T by number of participants and contributions

  17. Workshops • ITU/IEEE workshop on Ethernet - Emerging Applications and TechnologiesGeneva, 22 September 2012 • Workshop on 100G and beyond in ITU-T & IEEEGeneva,18 September 2011 • Forum on compatibility between PLT and Radiocommunication ServicesGeneva, Switzerland, 27 May 2011 • ITU-T/IEEE Workshop on The Future of Ethernet TransportGeneva, 28 May 2010

  18. Tutorials and webinars • Webinar on optical transport networks from TDM to packetonline, 20 Sept 2011 • Tutorial on Optical Fibre Cables and SystemsMexico City, 19-30 Sept 2011 • Webinar on Optical fibres, cables & systems online, 15 Sept 2011 • Tutorial on Optical Fibre Cables & SystemsKigali, 6-17 Sept 2010

  19. Thank you! Mr Yoichi Maeda: CEO & S.V.P. of TTC MrMaeda received his B. E. and M. E. Degrees in Electronic Engineering from Shizuoka University, Japan, in 1978 an 1980, respectively. Since joining NTT in 1980, he has been engaged in research and development on transport network systems for broadband communications including SDH, ATM and IP technologies. MrMaeda is a member of the IEEE and a Fellow of IEICE of Japan. He is the Feature Editor on Standards for the IEEE Communications Magazine. Having been appointed as CEO and S.V.P. of TTC (The Telecommunication Technology Committee) in October 2010, he currently leads the Japanese telecommunication standardization organization.

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